1 //! Machinery for hygienic macros.
3 //! Inspired by Matthew Flatt et al., “Macros That Work Together: Compile-Time Bindings, Partial
4 //! Expansion, and Definition Contexts,” *Journal of Functional Programming* 22, no. 2
5 //! (March 1, 2012): 181–216, <https://doi.org/10.1017/S0956796812000093>.
7 // Hygiene data is stored in a global variable and accessed via TLS, which
8 // means that accesses are somewhat expensive. (`HygieneData::with`
9 // encapsulates a single access.) Therefore, on hot code paths it is worth
10 // ensuring that multiple HygieneData accesses are combined into a single
11 // `HygieneData::with`.
13 // This explains why `HygieneData`, `SyntaxContext` and `ExpnId` have interfaces
14 // with a certain amount of redundancy in them. For example,
15 // `SyntaxContext::outer_expn_data` combines `SyntaxContext::outer` and
16 // `ExpnId::expn_data` so that two `HygieneData` accesses can be performed within
17 // a single `HygieneData::with` call.
19 // It also explains why many functions appear in `HygieneData` and again in
20 // `SyntaxContext` or `ExpnId`. For example, `HygieneData::outer` and
21 // `SyntaxContext::outer` do the same thing, but the former is for use within a
22 // `HygieneData::with` call while the latter is for use outside such a call.
23 // When modifying this file it is important to understand this distinction,
24 // because getting it wrong can lead to nested `HygieneData::with` calls that
25 // trigger runtime aborts. (Fortunately these are obvious and easy to fix.)
27 use crate::edition::Edition;
28 use crate::symbol::{kw, sym, Symbol};
29 use crate::with_session_globals;
30 use crate::{HashStableContext, Span, DUMMY_SP};
32 use crate::def_id::{CrateNum, DefId, StableCrateId, CRATE_DEF_ID, LOCAL_CRATE};
33 use rustc_data_structures::fingerprint::Fingerprint;
34 use rustc_data_structures::fx::{FxHashMap, FxHashSet};
35 use rustc_data_structures::stable_hasher::HashingControls;
36 use rustc_data_structures::stable_hasher::{HashStable, StableHasher};
37 use rustc_data_structures::sync::{Lock, Lrc};
38 use rustc_data_structures::unhash::UnhashMap;
39 use rustc_index::vec::IndexVec;
40 use rustc_macros::HashStable_Generic;
41 use rustc_serialize::{Decodable, Decoder, Encodable, Encoder};
45 /// A `SyntaxContext` represents a chain of pairs `(ExpnId, Transparency)` named "marks".
46 #[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Hash)]
47 pub struct SyntaxContext(u32);
49 #[derive(Debug, Encodable, Decodable, Clone)]
50 pub struct SyntaxContextData {
52 outer_transparency: Transparency,
53 parent: SyntaxContext,
54 /// This context, but with all transparent and semi-transparent expansions filtered away.
55 opaque: SyntaxContext,
56 /// This context, but with all transparent expansions filtered away.
57 opaque_and_semitransparent: SyntaxContext,
58 /// Name of the crate to which `$crate` with this context would resolve.
59 dollar_crate_name: Symbol,
62 rustc_index::newtype_index! {
63 /// A unique ID associated with a macro invocation and expansion.
64 pub struct ExpnIndex {
69 /// A unique ID associated with a macro invocation and expansion.
70 #[derive(Clone, Copy, PartialEq, Eq, Hash)]
73 pub local_id: ExpnIndex,
76 impl fmt::Debug for ExpnId {
77 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
78 // Generate crate_::{{expn_}}.
79 write!(f, "{:?}::{{{{expn{}}}}}", self.krate, self.local_id.private)
83 rustc_index::newtype_index! {
84 /// A unique ID associated with a macro invocation and expansion.
85 pub struct LocalExpnId {
88 DEBUG_FORMAT = "expn{}"
92 // To ensure correctness of incremental compilation,
93 // `LocalExpnId` must not implement `Ord` or `PartialOrd`.
94 // See https://github.com/rust-lang/rust/issues/90317.
95 impl !Ord for LocalExpnId {}
96 impl !PartialOrd for LocalExpnId {}
98 /// Assert that the provided `HashStableContext` is configured with the 'default'
99 /// `HashingControls`. We should always have bailed out before getting to here
100 /// with a non-default mode. With this check in place, we can avoid the need
101 /// to maintain separate versions of `ExpnData` hashes for each permutation
102 /// of `HashingControls` settings.
103 fn assert_default_hashing_controls<CTX: HashStableContext>(ctx: &CTX, msg: &str) {
104 match ctx.hashing_controls() {
105 // Note that we require that `hash_spans` be set according to the global
106 // `-Z incremental-ignore-spans` option. Normally, this option is disabled,
107 // which will cause us to require that this method always be called with `Span` hashing
109 HashingControls { hash_spans }
110 if hash_spans == !ctx.unstable_opts_incremental_ignore_spans() => {}
111 other => panic!("Attempted hashing of {msg} with non-default HashingControls: {:?}", other),
115 /// A unique hash value associated to an expansion.
116 #[derive(Clone, Copy, PartialEq, Eq, Hash, Debug, Encodable, Decodable, HashStable_Generic)]
117 pub struct ExpnHash(Fingerprint);
120 /// Returns the [StableCrateId] identifying the crate this [ExpnHash]
123 pub fn stable_crate_id(self) -> StableCrateId {
124 StableCrateId(self.0.as_value().0)
127 /// Returns the crate-local part of the [ExpnHash].
131 pub fn local_hash(self) -> u64 {
136 pub fn is_root(self) -> bool {
137 self.0 == Fingerprint::ZERO
140 /// Builds a new [ExpnHash] with the given [StableCrateId] and
141 /// `local_hash`, where `local_hash` must be unique within its crate.
142 fn new(stable_crate_id: StableCrateId, local_hash: u64) -> ExpnHash {
143 ExpnHash(Fingerprint::new(stable_crate_id.0, local_hash))
147 /// A property of a macro expansion that determines how identifiers
148 /// produced by that expansion are resolved.
149 #[derive(Copy, Clone, PartialEq, Eq, PartialOrd, Hash, Debug, Encodable, Decodable)]
150 #[derive(HashStable_Generic)]
151 pub enum Transparency {
152 /// Identifier produced by a transparent expansion is always resolved at call-site.
153 /// Call-site spans in procedural macros, hygiene opt-out in `macro` should use this.
155 /// Identifier produced by a semi-transparent expansion may be resolved
156 /// either at call-site or at definition-site.
157 /// If it's a local variable, label or `$crate` then it's resolved at def-site.
158 /// Otherwise it's resolved at call-site.
159 /// `macro_rules` macros behave like this, built-in macros currently behave like this too,
160 /// but that's an implementation detail.
162 /// Identifier produced by an opaque expansion is always resolved at definition-site.
163 /// Def-site spans in procedural macros, identifiers from `macro` by default use this.
168 /// The ID of the theoretical expansion that generates freshly parsed, unexpanded AST.
169 pub const ROOT: LocalExpnId = LocalExpnId::from_u32(0);
172 pub fn from_raw(idx: ExpnIndex) -> LocalExpnId {
173 LocalExpnId::from_u32(idx.as_u32())
177 pub fn as_raw(self) -> ExpnIndex {
178 ExpnIndex::from_u32(self.as_u32())
181 pub fn fresh_empty() -> LocalExpnId {
182 HygieneData::with(|data| {
183 let expn_id = data.local_expn_data.push(None);
184 let _eid = data.local_expn_hashes.push(ExpnHash(Fingerprint::ZERO));
185 debug_assert_eq!(expn_id, _eid);
190 pub fn fresh(mut expn_data: ExpnData, ctx: impl HashStableContext) -> LocalExpnId {
191 debug_assert_eq!(expn_data.parent.krate, LOCAL_CRATE);
192 let expn_hash = update_disambiguator(&mut expn_data, ctx);
193 HygieneData::with(|data| {
194 let expn_id = data.local_expn_data.push(Some(expn_data));
195 let _eid = data.local_expn_hashes.push(expn_hash);
196 debug_assert_eq!(expn_id, _eid);
197 let _old_id = data.expn_hash_to_expn_id.insert(expn_hash, expn_id.to_expn_id());
198 debug_assert!(_old_id.is_none());
204 pub fn expn_hash(self) -> ExpnHash {
205 HygieneData::with(|data| data.local_expn_hash(self))
209 pub fn expn_data(self) -> ExpnData {
210 HygieneData::with(|data| data.local_expn_data(self).clone())
214 pub fn to_expn_id(self) -> ExpnId {
215 ExpnId { krate: LOCAL_CRATE, local_id: self.as_raw() }
219 pub fn set_expn_data(self, mut expn_data: ExpnData, ctx: impl HashStableContext) {
220 debug_assert_eq!(expn_data.parent.krate, LOCAL_CRATE);
221 let expn_hash = update_disambiguator(&mut expn_data, ctx);
222 HygieneData::with(|data| {
223 let old_expn_data = &mut data.local_expn_data[self];
224 assert!(old_expn_data.is_none(), "expansion data is reset for an expansion ID");
225 *old_expn_data = Some(expn_data);
226 debug_assert_eq!(data.local_expn_hashes[self].0, Fingerprint::ZERO);
227 data.local_expn_hashes[self] = expn_hash;
228 let _old_id = data.expn_hash_to_expn_id.insert(expn_hash, self.to_expn_id());
229 debug_assert!(_old_id.is_none());
234 pub fn is_descendant_of(self, ancestor: LocalExpnId) -> bool {
235 self.to_expn_id().is_descendant_of(ancestor.to_expn_id())
238 /// `expn_id.outer_expn_is_descendant_of(ctxt)` is equivalent to but faster than
239 /// `expn_id.is_descendant_of(ctxt.outer_expn())`.
241 pub fn outer_expn_is_descendant_of(self, ctxt: SyntaxContext) -> bool {
242 self.to_expn_id().outer_expn_is_descendant_of(ctxt)
245 /// Returns span for the macro which originally caused this expansion to happen.
247 /// Stops backtracing at include! boundary.
249 pub fn expansion_cause(self) -> Option<Span> {
250 self.to_expn_id().expansion_cause()
255 pub fn parent(self) -> LocalExpnId {
256 self.expn_data().parent.as_local().unwrap()
261 /// The ID of the theoretical expansion that generates freshly parsed, unexpanded AST.
262 /// Invariant: we do not create any ExpnId with local_id == 0 and krate != 0.
263 pub const fn root() -> ExpnId {
264 ExpnId { krate: LOCAL_CRATE, local_id: ExpnIndex::from_u32(0) }
268 pub fn expn_hash(self) -> ExpnHash {
269 HygieneData::with(|data| data.expn_hash(self))
273 pub fn from_hash(hash: ExpnHash) -> Option<ExpnId> {
274 HygieneData::with(|data| data.expn_hash_to_expn_id.get(&hash).copied())
278 pub fn as_local(self) -> Option<LocalExpnId> {
279 if self.krate == LOCAL_CRATE { Some(LocalExpnId::from_raw(self.local_id)) } else { None }
284 pub fn expect_local(self) -> LocalExpnId {
285 self.as_local().unwrap()
289 pub fn expn_data(self) -> ExpnData {
290 HygieneData::with(|data| data.expn_data(self).clone())
294 pub fn is_descendant_of(self, ancestor: ExpnId) -> bool {
295 // a few "fast path" cases to avoid locking HygieneData
296 if ancestor == ExpnId::root() || ancestor == self {
299 if ancestor.krate != self.krate {
302 HygieneData::with(|data| data.is_descendant_of(self, ancestor))
305 /// `expn_id.outer_expn_is_descendant_of(ctxt)` is equivalent to but faster than
306 /// `expn_id.is_descendant_of(ctxt.outer_expn())`.
307 pub fn outer_expn_is_descendant_of(self, ctxt: SyntaxContext) -> bool {
308 HygieneData::with(|data| data.is_descendant_of(self, data.outer_expn(ctxt)))
311 /// Returns span for the macro which originally caused this expansion to happen.
313 /// Stops backtracing at include! boundary.
314 pub fn expansion_cause(mut self) -> Option<Span> {
315 let mut last_macro = None;
317 let expn_data = self.expn_data();
318 // Stop going up the backtrace once include! is encountered
319 if expn_data.is_root()
320 || expn_data.kind == ExpnKind::Macro(MacroKind::Bang, sym::include)
324 self = expn_data.call_site.ctxt().outer_expn();
325 last_macro = Some(expn_data.call_site);
332 pub struct HygieneData {
333 /// Each expansion should have an associated expansion data, but sometimes there's a delay
334 /// between creation of an expansion ID and obtaining its data (e.g. macros are collected
335 /// first and then resolved later), so we use an `Option` here.
336 local_expn_data: IndexVec<LocalExpnId, Option<ExpnData>>,
337 local_expn_hashes: IndexVec<LocalExpnId, ExpnHash>,
338 /// Data and hash information from external crates. We may eventually want to remove these
339 /// maps, and fetch the information directly from the other crate's metadata like DefIds do.
340 foreign_expn_data: FxHashMap<ExpnId, ExpnData>,
341 foreign_expn_hashes: FxHashMap<ExpnId, ExpnHash>,
342 expn_hash_to_expn_id: UnhashMap<ExpnHash, ExpnId>,
343 syntax_context_data: Vec<SyntaxContextData>,
344 syntax_context_map: FxHashMap<(SyntaxContext, ExpnId, Transparency), SyntaxContext>,
345 /// Maps the `local_hash` of an `ExpnData` to the next disambiguator value.
346 /// This is used by `update_disambiguator` to keep track of which `ExpnData`s
347 /// would have collisions without a disambiguator.
348 /// The keys of this map are always computed with `ExpnData.disambiguator`
350 expn_data_disambiguators: FxHashMap<u64, u32>,
354 pub(crate) fn new(edition: Edition) -> Self {
355 let root_data = ExpnData::default(
359 Some(CRATE_DEF_ID.to_def_id()),
364 local_expn_data: IndexVec::from_elem_n(Some(root_data), 1),
365 local_expn_hashes: IndexVec::from_elem_n(ExpnHash(Fingerprint::ZERO), 1),
366 foreign_expn_data: FxHashMap::default(),
367 foreign_expn_hashes: FxHashMap::default(),
368 expn_hash_to_expn_id: std::iter::once((ExpnHash(Fingerprint::ZERO), ExpnId::root()))
370 syntax_context_data: vec![SyntaxContextData {
371 outer_expn: ExpnId::root(),
372 outer_transparency: Transparency::Opaque,
373 parent: SyntaxContext(0),
374 opaque: SyntaxContext(0),
375 opaque_and_semitransparent: SyntaxContext(0),
376 dollar_crate_name: kw::DollarCrate,
378 syntax_context_map: FxHashMap::default(),
379 expn_data_disambiguators: FxHashMap::default(),
383 pub fn with<T, F: FnOnce(&mut HygieneData) -> T>(f: F) -> T {
384 with_session_globals(|session_globals| f(&mut *session_globals.hygiene_data.borrow_mut()))
388 fn local_expn_hash(&self, expn_id: LocalExpnId) -> ExpnHash {
389 self.local_expn_hashes[expn_id]
393 fn expn_hash(&self, expn_id: ExpnId) -> ExpnHash {
394 match expn_id.as_local() {
395 Some(expn_id) => self.local_expn_hashes[expn_id],
396 None => self.foreign_expn_hashes[&expn_id],
400 fn local_expn_data(&self, expn_id: LocalExpnId) -> &ExpnData {
401 self.local_expn_data[expn_id].as_ref().expect("no expansion data for an expansion ID")
404 fn expn_data(&self, expn_id: ExpnId) -> &ExpnData {
405 if let Some(expn_id) = expn_id.as_local() {
406 self.local_expn_data[expn_id].as_ref().expect("no expansion data for an expansion ID")
408 &self.foreign_expn_data[&expn_id]
412 fn is_descendant_of(&self, mut expn_id: ExpnId, ancestor: ExpnId) -> bool {
413 // a couple "fast path" cases to avoid traversing parents in the loop below
414 if ancestor == ExpnId::root() {
417 if expn_id.krate != ancestor.krate {
421 if expn_id == ancestor {
424 if expn_id == ExpnId::root() {
427 expn_id = self.expn_data(expn_id).parent;
431 fn normalize_to_macros_2_0(&self, ctxt: SyntaxContext) -> SyntaxContext {
432 self.syntax_context_data[ctxt.0 as usize].opaque
435 fn normalize_to_macro_rules(&self, ctxt: SyntaxContext) -> SyntaxContext {
436 self.syntax_context_data[ctxt.0 as usize].opaque_and_semitransparent
439 fn outer_expn(&self, ctxt: SyntaxContext) -> ExpnId {
440 self.syntax_context_data[ctxt.0 as usize].outer_expn
443 fn outer_mark(&self, ctxt: SyntaxContext) -> (ExpnId, Transparency) {
444 let data = &self.syntax_context_data[ctxt.0 as usize];
445 (data.outer_expn, data.outer_transparency)
448 fn parent_ctxt(&self, ctxt: SyntaxContext) -> SyntaxContext {
449 self.syntax_context_data[ctxt.0 as usize].parent
452 fn remove_mark(&self, ctxt: &mut SyntaxContext) -> (ExpnId, Transparency) {
453 let outer_mark = self.outer_mark(*ctxt);
454 *ctxt = self.parent_ctxt(*ctxt);
458 fn marks(&self, mut ctxt: SyntaxContext) -> Vec<(ExpnId, Transparency)> {
459 let mut marks = Vec::new();
460 while ctxt != SyntaxContext::root() {
461 debug!("marks: getting parent of {:?}", ctxt);
462 marks.push(self.outer_mark(ctxt));
463 ctxt = self.parent_ctxt(ctxt);
469 fn walk_chain(&self, mut span: Span, to: SyntaxContext) -> Span {
470 debug!("walk_chain({:?}, {:?})", span, to);
471 debug!("walk_chain: span ctxt = {:?}", span.ctxt());
472 while span.from_expansion() && span.ctxt() != to {
473 let outer_expn = self.outer_expn(span.ctxt());
474 debug!("walk_chain({:?}): outer_expn={:?}", span, outer_expn);
475 let expn_data = self.expn_data(outer_expn);
476 debug!("walk_chain({:?}): expn_data={:?}", span, expn_data);
477 span = expn_data.call_site;
482 fn adjust(&self, ctxt: &mut SyntaxContext, expn_id: ExpnId) -> Option<ExpnId> {
483 let mut scope = None;
484 while !self.is_descendant_of(expn_id, self.outer_expn(*ctxt)) {
485 scope = Some(self.remove_mark(ctxt).0);
494 transparency: Transparency,
496 assert_ne!(expn_id, ExpnId::root());
497 if transparency == Transparency::Opaque {
498 return self.apply_mark_internal(ctxt, expn_id, transparency);
501 let call_site_ctxt = self.expn_data(expn_id).call_site.ctxt();
502 let mut call_site_ctxt = if transparency == Transparency::SemiTransparent {
503 self.normalize_to_macros_2_0(call_site_ctxt)
505 self.normalize_to_macro_rules(call_site_ctxt)
508 if call_site_ctxt == SyntaxContext::root() {
509 return self.apply_mark_internal(ctxt, expn_id, transparency);
512 // Otherwise, `expn_id` is a macros 1.0 definition and the call site is in a
513 // macros 2.0 expansion, i.e., a macros 1.0 invocation is in a macros 2.0 definition.
515 // In this case, the tokens from the macros 1.0 definition inherit the hygiene
516 // at their invocation. That is, we pretend that the macros 1.0 definition
517 // was defined at its invocation (i.e., inside the macros 2.0 definition)
518 // so that the macros 2.0 definition remains hygienic.
520 // See the example at `test/ui/hygiene/legacy_interaction.rs`.
521 for (expn_id, transparency) in self.marks(ctxt) {
522 call_site_ctxt = self.apply_mark_internal(call_site_ctxt, expn_id, transparency);
524 self.apply_mark_internal(call_site_ctxt, expn_id, transparency)
527 fn apply_mark_internal(
531 transparency: Transparency,
533 let syntax_context_data = &mut self.syntax_context_data;
534 let mut opaque = syntax_context_data[ctxt.0 as usize].opaque;
535 let mut opaque_and_semitransparent =
536 syntax_context_data[ctxt.0 as usize].opaque_and_semitransparent;
538 if transparency >= Transparency::Opaque {
542 .entry((parent, expn_id, transparency))
544 let new_opaque = SyntaxContext(syntax_context_data.len() as u32);
545 syntax_context_data.push(SyntaxContextData {
547 outer_transparency: transparency,
550 opaque_and_semitransparent: new_opaque,
551 dollar_crate_name: kw::DollarCrate,
557 if transparency >= Transparency::SemiTransparent {
558 let parent = opaque_and_semitransparent;
559 opaque_and_semitransparent = *self
561 .entry((parent, expn_id, transparency))
563 let new_opaque_and_semitransparent =
564 SyntaxContext(syntax_context_data.len() as u32);
565 syntax_context_data.push(SyntaxContextData {
567 outer_transparency: transparency,
570 opaque_and_semitransparent: new_opaque_and_semitransparent,
571 dollar_crate_name: kw::DollarCrate,
573 new_opaque_and_semitransparent
578 *self.syntax_context_map.entry((parent, expn_id, transparency)).or_insert_with(|| {
579 let new_opaque_and_semitransparent_and_transparent =
580 SyntaxContext(syntax_context_data.len() as u32);
581 syntax_context_data.push(SyntaxContextData {
583 outer_transparency: transparency,
586 opaque_and_semitransparent,
587 dollar_crate_name: kw::DollarCrate,
589 new_opaque_and_semitransparent_and_transparent
594 pub fn clear_syntax_context_map() {
595 HygieneData::with(|data| data.syntax_context_map = FxHashMap::default());
598 pub fn walk_chain(span: Span, to: SyntaxContext) -> Span {
599 HygieneData::with(|data| data.walk_chain(span, to))
602 pub fn update_dollar_crate_names(mut get_name: impl FnMut(SyntaxContext) -> Symbol) {
603 // The new contexts that need updating are at the end of the list and have `$crate` as a name.
604 let (len, to_update) = HygieneData::with(|data| {
606 data.syntax_context_data.len(),
607 data.syntax_context_data
610 .take_while(|scdata| scdata.dollar_crate_name == kw::DollarCrate)
614 // The callback must be called from outside of the `HygieneData` lock,
615 // since it will try to acquire it too.
616 let range_to_update = len - to_update..len;
618 range_to_update.clone().map(|idx| get_name(SyntaxContext::from_u32(idx as u32))).collect();
619 HygieneData::with(|data| {
620 range_to_update.zip(names).for_each(|(idx, name)| {
621 data.syntax_context_data[idx].dollar_crate_name = name;
626 pub fn debug_hygiene_data(verbose: bool) -> String {
627 HygieneData::with(|data| {
629 format!("{:#?}", data)
631 let mut s = String::from("Expansions:");
632 let mut debug_expn_data = |(id, expn_data): (&ExpnId, &ExpnData)| {
634 "\n{:?}: parent: {:?}, call_site_ctxt: {:?}, def_site_ctxt: {:?}, kind: {:?}",
637 expn_data.call_site.ctxt(),
638 expn_data.def_site.ctxt(),
642 data.local_expn_data.iter_enumerated().for_each(|(id, expn_data)| {
643 let expn_data = expn_data.as_ref().expect("no expansion data for an expansion ID");
644 debug_expn_data((&id.to_expn_id(), expn_data))
647 // Sort the hash map for more reproducible output.
648 // Because of this, it is fine to rely on the unstable iteration order of the map.
649 #[allow(rustc::potential_query_instability)]
650 let mut foreign_expn_data: Vec<_> = data.foreign_expn_data.iter().collect();
651 foreign_expn_data.sort_by_key(|(id, _)| (id.krate, id.local_id));
652 foreign_expn_data.into_iter().for_each(debug_expn_data);
653 s.push_str("\n\nSyntaxContexts:");
654 data.syntax_context_data.iter().enumerate().for_each(|(id, ctxt)| {
656 "\n#{}: parent: {:?}, outer_mark: ({:?}, {:?})",
657 id, ctxt.parent, ctxt.outer_expn, ctxt.outer_transparency,
667 pub const fn root() -> Self {
672 pub(crate) fn as_u32(self) -> u32 {
677 pub(crate) fn from_u32(raw: u32) -> SyntaxContext {
681 /// Extend a syntax context with a given expansion and transparency.
682 pub(crate) fn apply_mark(self, expn_id: ExpnId, transparency: Transparency) -> SyntaxContext {
683 HygieneData::with(|data| data.apply_mark(self, expn_id, transparency))
686 /// Pulls a single mark off of the syntax context. This effectively moves the
687 /// context up one macro definition level. That is, if we have a nested macro
688 /// definition as follows:
690 /// ```ignore (illustrative)
698 /// and we have a SyntaxContext that is referring to something declared by an invocation
699 /// of g (call it g1), calling remove_mark will result in the SyntaxContext for the
700 /// invocation of f that created g1.
701 /// Returns the mark that was removed.
702 pub fn remove_mark(&mut self) -> ExpnId {
703 HygieneData::with(|data| data.remove_mark(self).0)
706 pub fn marks(self) -> Vec<(ExpnId, Transparency)> {
707 HygieneData::with(|data| data.marks(self))
710 /// Adjust this context for resolution in a scope created by the given expansion.
711 /// For example, consider the following three resolutions of `f`:
714 /// #![feature(decl_macro)]
715 /// mod foo { pub fn f() {} } // `f`'s `SyntaxContext` is empty.
717 /// macro m($f:ident) {
719 /// pub fn f() {} // `f`'s `SyntaxContext` has a single `ExpnId` from `m`.
720 /// pub fn $f() {} // `$f`'s `SyntaxContext` is empty.
722 /// foo::f(); // `f`'s `SyntaxContext` has a single `ExpnId` from `m`
723 /// //^ Since `mod foo` is outside this expansion, `adjust` removes the mark from `f`,
724 /// //| and it resolves to `::foo::f`.
725 /// bar::f(); // `f`'s `SyntaxContext` has a single `ExpnId` from `m`
726 /// //^ Since `mod bar` not outside this expansion, `adjust` does not change `f`,
727 /// //| and it resolves to `::bar::f`.
728 /// bar::$f(); // `f`'s `SyntaxContext` is empty.
729 /// //^ Since `mod bar` is not outside this expansion, `adjust` does not change `$f`,
730 /// //| and it resolves to `::bar::$f`.
733 /// This returns the expansion whose definition scope we use to privacy check the resolution,
734 /// or `None` if we privacy check as usual (i.e., not w.r.t. a macro definition scope).
735 pub fn adjust(&mut self, expn_id: ExpnId) -> Option<ExpnId> {
736 HygieneData::with(|data| data.adjust(self, expn_id))
739 /// Like `SyntaxContext::adjust`, but also normalizes `self` to macros 2.0.
740 pub fn normalize_to_macros_2_0_and_adjust(&mut self, expn_id: ExpnId) -> Option<ExpnId> {
741 HygieneData::with(|data| {
742 *self = data.normalize_to_macros_2_0(*self);
743 data.adjust(self, expn_id)
747 /// Adjust this context for resolution in a scope created by the given expansion
748 /// via a glob import with the given `SyntaxContext`.
751 /// ```compile_fail,E0425
752 /// #![feature(decl_macro)]
754 /// macro m($i:ident) {
756 /// pub fn f() {} // `f`'s `SyntaxContext` has a single `ExpnId` from `m`.
757 /// pub fn $i() {} // `$i`'s `SyntaxContext` is empty.
760 /// macro n($j:ident) {
762 /// f(); // `f`'s `SyntaxContext` has a mark from `m` and a mark from `n`
763 /// //^ `glob_adjust` removes the mark from `n`, so this resolves to `foo::f`.
764 /// $i(); // `$i`'s `SyntaxContext` has a mark from `n`
765 /// //^ `glob_adjust` removes the mark from `n`, so this resolves to `foo::$i`.
766 /// $j(); // `$j`'s `SyntaxContext` has a mark from `m`
767 /// //^ This cannot be glob-adjusted, so this is a resolution error.
771 /// This returns `None` if the context cannot be glob-adjusted.
772 /// Otherwise, it returns the scope to use when privacy checking (see `adjust` for details).
773 pub fn glob_adjust(&mut self, expn_id: ExpnId, glob_span: Span) -> Option<Option<ExpnId>> {
774 HygieneData::with(|data| {
775 let mut scope = None;
776 let mut glob_ctxt = data.normalize_to_macros_2_0(glob_span.ctxt());
777 while !data.is_descendant_of(expn_id, data.outer_expn(glob_ctxt)) {
778 scope = Some(data.remove_mark(&mut glob_ctxt).0);
779 if data.remove_mark(self).0 != scope.unwrap() {
783 if data.adjust(self, expn_id).is_some() {
790 /// Undo `glob_adjust` if possible:
792 /// ```ignore (illustrative)
793 /// if let Some(privacy_checking_scope) = self.reverse_glob_adjust(expansion, glob_ctxt) {
794 /// assert!(self.glob_adjust(expansion, glob_ctxt) == Some(privacy_checking_scope));
797 pub fn reverse_glob_adjust(
801 ) -> Option<Option<ExpnId>> {
802 HygieneData::with(|data| {
803 if data.adjust(self, expn_id).is_some() {
807 let mut glob_ctxt = data.normalize_to_macros_2_0(glob_span.ctxt());
808 let mut marks = Vec::new();
809 while !data.is_descendant_of(expn_id, data.outer_expn(glob_ctxt)) {
810 marks.push(data.remove_mark(&mut glob_ctxt));
813 let scope = marks.last().map(|mark| mark.0);
814 while let Some((expn_id, transparency)) = marks.pop() {
815 *self = data.apply_mark(*self, expn_id, transparency);
821 pub fn hygienic_eq(self, other: SyntaxContext, expn_id: ExpnId) -> bool {
822 HygieneData::with(|data| {
823 let mut self_normalized = data.normalize_to_macros_2_0(self);
824 data.adjust(&mut self_normalized, expn_id);
825 self_normalized == data.normalize_to_macros_2_0(other)
830 pub fn normalize_to_macros_2_0(self) -> SyntaxContext {
831 HygieneData::with(|data| data.normalize_to_macros_2_0(self))
835 pub fn normalize_to_macro_rules(self) -> SyntaxContext {
836 HygieneData::with(|data| data.normalize_to_macro_rules(self))
840 pub fn outer_expn(self) -> ExpnId {
841 HygieneData::with(|data| data.outer_expn(self))
844 /// `ctxt.outer_expn_data()` is equivalent to but faster than
845 /// `ctxt.outer_expn().expn_data()`.
847 pub fn outer_expn_data(self) -> ExpnData {
848 HygieneData::with(|data| data.expn_data(data.outer_expn(self)).clone())
852 pub fn outer_mark(self) -> (ExpnId, Transparency) {
853 HygieneData::with(|data| data.outer_mark(self))
856 pub fn dollar_crate_name(self) -> Symbol {
857 HygieneData::with(|data| data.syntax_context_data[self.0 as usize].dollar_crate_name)
860 pub fn edition(self) -> Edition {
861 HygieneData::with(|data| data.expn_data(data.outer_expn(self)).edition)
865 impl fmt::Debug for SyntaxContext {
866 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
867 write!(f, "#{}", self.0)
872 /// Creates a fresh expansion with given properties.
873 /// Expansions are normally created by macros, but in some cases expansions are created for
874 /// other compiler-generated code to set per-span properties like allowed unstable features.
875 /// The returned span belongs to the created expansion and has the new properties,
876 /// but its location is inherited from the current span.
877 pub fn fresh_expansion(self, expn_id: LocalExpnId) -> Span {
878 HygieneData::with(|data| {
879 self.with_ctxt(data.apply_mark(
880 SyntaxContext::root(),
881 expn_id.to_expn_id(),
882 Transparency::Transparent,
887 /// Reuses the span but adds information like the kind of the desugaring and features that are
888 /// allowed inside this span.
889 pub fn mark_with_reason(
891 allow_internal_unstable: Option<Lrc<[Symbol]>>,
892 reason: DesugaringKind,
894 ctx: impl HashStableContext,
896 let expn_data = ExpnData {
897 allow_internal_unstable,
898 ..ExpnData::default(ExpnKind::Desugaring(reason), self, edition, None, None)
900 let expn_id = LocalExpnId::fresh(expn_data, ctx);
901 self.fresh_expansion(expn_id)
905 /// A subset of properties from both macro definition and macro call available through global data.
906 /// Avoid using this if you have access to the original definition or call structures.
907 #[derive(Clone, Debug, Encodable, Decodable, HashStable_Generic)]
908 pub struct ExpnData {
909 // --- The part unique to each expansion.
910 /// The kind of this expansion - macro or compiler desugaring.
912 /// The expansion that produced this expansion.
914 /// The location of the actual macro invocation or syntax sugar , e.g.
915 /// `let x = foo!();` or `if let Some(y) = x {}`
917 /// This may recursively refer to other macro invocations, e.g., if
918 /// `foo!()` invoked `bar!()` internally, and there was an
919 /// expression inside `bar!`; the call_site of the expression in
920 /// the expansion would point to the `bar!` invocation; that
921 /// call_site span would have its own ExpnData, with the call_site
922 /// pointing to the `foo!` invocation.
924 /// Used to force two `ExpnData`s to have different `Fingerprint`s.
925 /// Due to macro expansion, it's possible to end up with two `ExpnId`s
926 /// that have identical `ExpnData`s. This violates the contract of `HashStable`
927 /// - the two `ExpnId`s are not equal, but their `Fingerprint`s are equal
928 /// (since the numerical `ExpnId` value is not considered by the `HashStable`
931 /// The `disambiguator` field is set by `update_disambiguator` when two distinct
932 /// `ExpnId`s would end up with the same `Fingerprint`. Since `ExpnData` includes
933 /// a `krate` field, this value only needs to be unique within a single crate.
936 // --- The part specific to the macro/desugaring definition.
937 // --- It may be reasonable to share this part between expansions with the same definition,
938 // --- but such sharing is known to bring some minor inconveniences without also bringing
939 // --- noticeable perf improvements (PR #62898).
940 /// The span of the macro definition (possibly dummy).
941 /// This span serves only informational purpose and is not used for resolution.
943 /// List of `#[unstable]`/feature-gated features that the macro is allowed to use
944 /// internally without forcing the whole crate to opt-in
946 pub allow_internal_unstable: Option<Lrc<[Symbol]>>,
947 /// Whether the macro is allowed to use `unsafe` internally
948 /// even if the user crate has `#![forbid(unsafe_code)]`.
949 pub allow_internal_unsafe: bool,
950 /// Enables the macro helper hack (`ident!(...)` -> `$crate::ident!(...)`)
951 /// for a given macro.
952 pub local_inner_macros: bool,
953 /// Edition of the crate in which the macro is defined.
954 pub edition: Edition,
955 /// The `DefId` of the macro being invoked,
956 /// if this `ExpnData` corresponds to a macro invocation
957 pub macro_def_id: Option<DefId>,
958 /// The normal module (`mod`) in which the expanded macro was defined.
959 pub parent_module: Option<DefId>,
962 impl !PartialEq for ExpnData {}
963 impl !Hash for ExpnData {}
971 allow_internal_unstable: Option<Lrc<[Symbol]>>,
972 allow_internal_unsafe: bool,
973 local_inner_macros: bool,
975 macro_def_id: Option<DefId>,
976 parent_module: Option<DefId>,
983 allow_internal_unstable,
984 allow_internal_unsafe,
993 /// Constructs expansion data with default properties.
998 macro_def_id: Option<DefId>,
999 parent_module: Option<DefId>,
1003 parent: ExpnId::root(),
1006 allow_internal_unstable: None,
1007 allow_internal_unsafe: false,
1008 local_inner_macros: false,
1016 pub fn allow_unstable(
1020 allow_internal_unstable: Lrc<[Symbol]>,
1021 macro_def_id: Option<DefId>,
1022 parent_module: Option<DefId>,
1025 allow_internal_unstable: Some(allow_internal_unstable),
1026 ..ExpnData::default(kind, call_site, edition, macro_def_id, parent_module)
1031 pub fn is_root(&self) -> bool {
1032 matches!(self.kind, ExpnKind::Root)
1036 fn hash_expn(&self, ctx: &mut impl HashStableContext) -> u64 {
1037 let mut hasher = StableHasher::new();
1038 self.hash_stable(ctx, &mut hasher);
1044 #[derive(Clone, Debug, PartialEq, Encodable, Decodable, HashStable_Generic)]
1046 /// No expansion, aka root expansion. Only `ExpnId::root()` has this kind.
1048 /// Expansion produced by a macro.
1049 Macro(MacroKind, Symbol),
1050 /// Transform done by the compiler on the AST.
1052 /// Desugaring done by the compiler during HIR lowering.
1053 Desugaring(DesugaringKind),
1059 pub fn descr(&self) -> String {
1061 ExpnKind::Root => kw::PathRoot.to_string(),
1062 ExpnKind::Macro(macro_kind, name) => match macro_kind {
1063 MacroKind::Bang => format!("{}!", name),
1064 MacroKind::Attr => format!("#[{}]", name),
1065 MacroKind::Derive => format!("#[derive({})]", name),
1067 ExpnKind::AstPass(kind) => kind.descr().to_string(),
1068 ExpnKind::Desugaring(kind) => format!("desugaring of {}", kind.descr()),
1069 ExpnKind::Inlined => "inlined source".to_string(),
1074 /// The kind of macro invocation or definition.
1075 #[derive(Clone, Copy, PartialEq, Eq, Encodable, Decodable, Hash, Debug)]
1076 #[derive(HashStable_Generic)]
1077 pub enum MacroKind {
1078 /// A bang macro `foo!()`.
1080 /// An attribute macro `#[foo]`.
1082 /// A derive macro `#[derive(Foo)]`
1087 pub fn descr(self) -> &'static str {
1089 MacroKind::Bang => "macro",
1090 MacroKind::Attr => "attribute macro",
1091 MacroKind::Derive => "derive macro",
1095 pub fn descr_expected(self) -> &'static str {
1097 MacroKind::Attr => "attribute",
1102 pub fn article(self) -> &'static str {
1104 MacroKind::Attr => "an",
1110 /// The kind of AST transform.
1111 #[derive(Clone, Copy, Debug, PartialEq, Encodable, Decodable, HashStable_Generic)]
1119 pub fn descr(self) -> &'static str {
1121 AstPass::StdImports => "standard library imports",
1122 AstPass::TestHarness => "test harness",
1123 AstPass::ProcMacroHarness => "proc macro harness",
1128 /// The kind of compiler desugaring.
1129 #[derive(Clone, Copy, PartialEq, Debug, Encodable, Decodable, HashStable_Generic)]
1130 pub enum DesugaringKind {
1131 /// We desugar `if c { i } else { e }` to `match $ExprKind::Use(c) { true => i, _ => e }`.
1132 /// However, we do not want to blame `c` for unreachability but rather say that `i`
1133 /// is unreachable. This desugaring kind allows us to avoid blaming `c`.
1134 /// This also applies to `while` loops.
1139 /// Desugaring of an `impl Trait` in return type position
1140 /// to an `type Foo = impl Trait;` and replacing the
1141 /// `impl Trait` with `Foo`.
1149 impl DesugaringKind {
1150 /// The description wording should combine well with "desugaring of {}".
1151 pub fn descr(self) -> &'static str {
1153 DesugaringKind::CondTemporary => "`if` or `while` condition",
1154 DesugaringKind::Async => "`async` block or function",
1155 DesugaringKind::Await => "`await` expression",
1156 DesugaringKind::QuestionMark => "operator `?`",
1157 DesugaringKind::TryBlock => "`try` block",
1158 DesugaringKind::YeetExpr => "`do yeet` expression",
1159 DesugaringKind::OpaqueTy => "`impl Trait`",
1160 DesugaringKind::ForLoop => "`for` loop",
1161 DesugaringKind::WhileLoop => "`while` loop",
1167 pub struct HygieneEncodeContext {
1168 /// All `SyntaxContexts` for which we have written `SyntaxContextData` into crate metadata.
1169 /// This is `None` after we finish encoding `SyntaxContexts`, to ensure
1170 /// that we don't accidentally try to encode any more `SyntaxContexts`
1171 serialized_ctxts: Lock<FxHashSet<SyntaxContext>>,
1172 /// The `SyntaxContexts` that we have serialized (e.g. as a result of encoding `Spans`)
1173 /// in the most recent 'round' of serializing. Serializing `SyntaxContextData`
1174 /// may cause us to serialize more `SyntaxContext`s, so serialize in a loop
1175 /// until we reach a fixed point.
1176 latest_ctxts: Lock<FxHashSet<SyntaxContext>>,
1178 serialized_expns: Lock<FxHashSet<ExpnId>>,
1180 latest_expns: Lock<FxHashSet<ExpnId>>,
1183 impl HygieneEncodeContext {
1184 /// Record the fact that we need to serialize the corresponding `ExpnData`.
1185 pub fn schedule_expn_data_for_encoding(&self, expn: ExpnId) {
1186 if !self.serialized_expns.lock().contains(&expn) {
1187 self.latest_expns.lock().insert(expn);
1194 mut encode_ctxt: impl FnMut(&mut T, u32, &SyntaxContextData),
1195 mut encode_expn: impl FnMut(&mut T, ExpnId, &ExpnData, ExpnHash),
1197 // When we serialize a `SyntaxContextData`, we may end up serializing
1198 // a `SyntaxContext` that we haven't seen before
1199 while !self.latest_ctxts.lock().is_empty() || !self.latest_expns.lock().is_empty() {
1201 "encode_hygiene: Serializing a round of {:?} SyntaxContextDatas: {:?}",
1202 self.latest_ctxts.lock().len(),
1206 // Consume the current round of SyntaxContexts.
1207 // Drop the lock() temporary early
1208 let latest_ctxts = { std::mem::take(&mut *self.latest_ctxts.lock()) };
1210 // It's fine to iterate over a HashMap, because the serialization
1211 // of the table that we insert data into doesn't depend on insertion
1213 #[allow(rustc::potential_query_instability)]
1214 for_all_ctxts_in(latest_ctxts.into_iter(), |index, ctxt, data| {
1215 if self.serialized_ctxts.lock().insert(ctxt) {
1216 encode_ctxt(encoder, index, data);
1220 let latest_expns = { std::mem::take(&mut *self.latest_expns.lock()) };
1222 // Same as above, this is fine as we are inserting into a order-independent hashset
1223 #[allow(rustc::potential_query_instability)]
1224 for_all_expns_in(latest_expns.into_iter(), |expn, data, hash| {
1225 if self.serialized_expns.lock().insert(expn) {
1226 encode_expn(encoder, expn, data, hash);
1230 debug!("encode_hygiene: Done serializing SyntaxContextData");
1235 /// Additional information used to assist in decoding hygiene data
1236 pub struct HygieneDecodeContext {
1237 // Maps serialized `SyntaxContext` ids to a `SyntaxContext` in the current
1238 // global `HygieneData`. When we deserialize a `SyntaxContext`, we need to create
1239 // a new id in the global `HygieneData`. This map tracks the ID we end up picking,
1240 // so that multiple occurrences of the same serialized id are decoded to the same
1242 remapped_ctxts: Lock<Vec<Option<SyntaxContext>>>,
1245 /// Register an expansion which has been decoded from the on-disk-cache for the local crate.
1246 pub fn register_local_expn_id(data: ExpnData, hash: ExpnHash) -> ExpnId {
1247 HygieneData::with(|hygiene_data| {
1248 let expn_id = hygiene_data.local_expn_data.next_index();
1249 hygiene_data.local_expn_data.push(Some(data));
1250 let _eid = hygiene_data.local_expn_hashes.push(hash);
1251 debug_assert_eq!(expn_id, _eid);
1253 let expn_id = expn_id.to_expn_id();
1255 let _old_id = hygiene_data.expn_hash_to_expn_id.insert(hash, expn_id);
1256 debug_assert!(_old_id.is_none());
1261 /// Register an expansion which has been decoded from the metadata of a foreign crate.
1262 pub fn register_expn_id(
1264 local_id: ExpnIndex,
1268 debug_assert!(data.parent == ExpnId::root() || krate == data.parent.krate);
1269 let expn_id = ExpnId { krate, local_id };
1270 HygieneData::with(|hygiene_data| {
1271 let _old_data = hygiene_data.foreign_expn_data.insert(expn_id, data);
1272 debug_assert!(_old_data.is_none());
1273 let _old_hash = hygiene_data.foreign_expn_hashes.insert(expn_id, hash);
1274 debug_assert!(_old_hash.is_none());
1275 let _old_id = hygiene_data.expn_hash_to_expn_id.insert(hash, expn_id);
1276 debug_assert!(_old_id.is_none());
1281 /// Decode an expansion from the metadata of a foreign crate.
1282 pub fn decode_expn_id(
1285 decode_data: impl FnOnce(ExpnId) -> (ExpnData, ExpnHash),
1288 debug!("decode_expn_id: deserialized root");
1289 return ExpnId::root();
1292 let index = ExpnIndex::from_u32(index);
1294 // This function is used to decode metadata, so it cannot decode information about LOCAL_CRATE.
1295 debug_assert_ne!(krate, LOCAL_CRATE);
1296 let expn_id = ExpnId { krate, local_id: index };
1298 // Fast path if the expansion has already been decoded.
1299 if HygieneData::with(|hygiene_data| hygiene_data.foreign_expn_data.contains_key(&expn_id)) {
1303 // Don't decode the data inside `HygieneData::with`, since we need to recursively decode
1305 let (expn_data, hash) = decode_data(expn_id);
1307 register_expn_id(krate, index, expn_data, hash)
1310 // Decodes `SyntaxContext`, using the provided `HygieneDecodeContext`
1311 // to track which `SyntaxContext`s we have already decoded.
1312 // The provided closure will be invoked to deserialize a `SyntaxContextData`
1313 // if we haven't already seen the id of the `SyntaxContext` we are deserializing.
1314 pub fn decode_syntax_context<D: Decoder, F: FnOnce(&mut D, u32) -> SyntaxContextData>(
1316 context: &HygieneDecodeContext,
1318 ) -> SyntaxContext {
1319 let raw_id: u32 = Decodable::decode(d);
1321 debug!("decode_syntax_context: deserialized root");
1322 // The root is special
1323 return SyntaxContext::root();
1326 let outer_ctxts = &context.remapped_ctxts;
1328 // Ensure that the lock() temporary is dropped early
1330 if let Some(ctxt) = outer_ctxts.lock().get(raw_id as usize).copied().flatten() {
1335 // Allocate and store SyntaxContext id *before* calling the decoder function,
1336 // as the SyntaxContextData may reference itself.
1337 let new_ctxt = HygieneData::with(|hygiene_data| {
1338 let new_ctxt = SyntaxContext(hygiene_data.syntax_context_data.len() as u32);
1339 // Push a dummy SyntaxContextData to ensure that nobody else can get the
1340 // same ID as us. This will be overwritten after call `decode_Data`
1341 hygiene_data.syntax_context_data.push(SyntaxContextData {
1342 outer_expn: ExpnId::root(),
1343 outer_transparency: Transparency::Transparent,
1344 parent: SyntaxContext::root(),
1345 opaque: SyntaxContext::root(),
1346 opaque_and_semitransparent: SyntaxContext::root(),
1347 dollar_crate_name: kw::Empty,
1349 let mut ctxts = outer_ctxts.lock();
1350 let new_len = raw_id as usize + 1;
1351 if ctxts.len() < new_len {
1352 ctxts.resize(new_len, None);
1354 ctxts[raw_id as usize] = Some(new_ctxt);
1359 // Don't try to decode data while holding the lock, since we need to
1360 // be able to recursively decode a SyntaxContext
1361 let mut ctxt_data = decode_data(d, raw_id);
1362 // Reset `dollar_crate_name` so that it will be updated by `update_dollar_crate_names`
1363 // We don't care what the encoding crate set this to - we want to resolve it
1364 // from the perspective of the current compilation session
1365 ctxt_data.dollar_crate_name = kw::DollarCrate;
1367 // Overwrite the dummy data with our decoded SyntaxContextData
1368 HygieneData::with(|hygiene_data| {
1369 let dummy = std::mem::replace(
1370 &mut hygiene_data.syntax_context_data[new_ctxt.as_u32() as usize],
1373 // Make sure nothing weird happening while `decode_data` was running
1374 assert_eq!(dummy.dollar_crate_name, kw::Empty);
1380 fn for_all_ctxts_in<F: FnMut(u32, SyntaxContext, &SyntaxContextData)>(
1381 ctxts: impl Iterator<Item = SyntaxContext>,
1384 let all_data: Vec<_> = HygieneData::with(|data| {
1385 ctxts.map(|ctxt| (ctxt, data.syntax_context_data[ctxt.0 as usize].clone())).collect()
1387 for (ctxt, data) in all_data.into_iter() {
1388 f(ctxt.0, ctxt, &data);
1392 fn for_all_expns_in(
1393 expns: impl Iterator<Item = ExpnId>,
1394 mut f: impl FnMut(ExpnId, &ExpnData, ExpnHash),
1396 let all_data: Vec<_> = HygieneData::with(|data| {
1397 expns.map(|expn| (expn, data.expn_data(expn).clone(), data.expn_hash(expn))).collect()
1399 for (expn, data, hash) in all_data.into_iter() {
1400 f(expn, &data, hash);
1404 impl<E: Encoder> Encodable<E> for LocalExpnId {
1405 fn encode(&self, e: &mut E) {
1406 self.to_expn_id().encode(e);
1410 impl<E: Encoder> Encodable<E> for ExpnId {
1411 default fn encode(&self, _: &mut E) {
1412 panic!("cannot encode `ExpnId` with `{}`", std::any::type_name::<E>());
1416 impl<D: Decoder> Decodable<D> for LocalExpnId {
1417 fn decode(d: &mut D) -> Self {
1418 ExpnId::expect_local(ExpnId::decode(d))
1422 impl<D: Decoder> Decodable<D> for ExpnId {
1423 default fn decode(_: &mut D) -> Self {
1424 panic!("cannot decode `ExpnId` with `{}`", std::any::type_name::<D>());
1428 pub fn raw_encode_syntax_context<E: Encoder>(
1429 ctxt: SyntaxContext,
1430 context: &HygieneEncodeContext,
1433 if !context.serialized_ctxts.lock().contains(&ctxt) {
1434 context.latest_ctxts.lock().insert(ctxt);
1439 impl<E: Encoder> Encodable<E> for SyntaxContext {
1440 default fn encode(&self, _: &mut E) {
1441 panic!("cannot encode `SyntaxContext` with `{}`", std::any::type_name::<E>());
1445 impl<D: Decoder> Decodable<D> for SyntaxContext {
1446 default fn decode(_: &mut D) -> Self {
1447 panic!("cannot decode `SyntaxContext` with `{}`", std::any::type_name::<D>());
1451 /// Updates the `disambiguator` field of the corresponding `ExpnData`
1452 /// such that the `Fingerprint` of the `ExpnData` does not collide with
1453 /// any other `ExpnIds`.
1455 /// This method is called only when an `ExpnData` is first associated
1456 /// with an `ExpnId` (when the `ExpnId` is initially constructed, or via
1457 /// `set_expn_data`). It is *not* called for foreign `ExpnId`s deserialized
1458 /// from another crate's metadata - since `ExpnHash` includes the stable crate id,
1459 /// collisions are only possible between `ExpnId`s within the same crate.
1460 fn update_disambiguator(expn_data: &mut ExpnData, mut ctx: impl HashStableContext) -> ExpnHash {
1461 // This disambiguator should not have been set yet.
1463 expn_data.disambiguator, 0,
1464 "Already set disambiguator for ExpnData: {:?}",
1467 assert_default_hashing_controls(&ctx, "ExpnData (disambiguator)");
1468 let mut expn_hash = expn_data.hash_expn(&mut ctx);
1470 let disambiguator = HygieneData::with(|data| {
1471 // If this is the first ExpnData with a given hash, then keep our
1472 // disambiguator at 0 (the default u32 value)
1473 let disambig = data.expn_data_disambiguators.entry(expn_hash).or_default();
1474 let disambiguator = *disambig;
1479 if disambiguator != 0 {
1480 debug!("Set disambiguator for expn_data={:?} expn_hash={:?}", expn_data, expn_hash);
1482 expn_data.disambiguator = disambiguator;
1483 expn_hash = expn_data.hash_expn(&mut ctx);
1485 // Verify that the new disambiguator makes the hash unique
1486 #[cfg(debug_assertions)]
1487 HygieneData::with(|data| {
1489 data.expn_data_disambiguators.get(&expn_hash),
1491 "Hash collision after disambiguator update!",
1496 ExpnHash::new(ctx.def_path_hash(LOCAL_CRATE.as_def_id()).stable_crate_id(), expn_hash)
1499 impl<CTX: HashStableContext> HashStable<CTX> for SyntaxContext {
1500 fn hash_stable(&self, ctx: &mut CTX, hasher: &mut StableHasher) {
1501 const TAG_EXPANSION: u8 = 0;
1502 const TAG_NO_EXPANSION: u8 = 1;
1504 if *self == SyntaxContext::root() {
1505 TAG_NO_EXPANSION.hash_stable(ctx, hasher);
1507 TAG_EXPANSION.hash_stable(ctx, hasher);
1508 let (expn_id, transparency) = self.outer_mark();
1509 expn_id.hash_stable(ctx, hasher);
1510 transparency.hash_stable(ctx, hasher);
1515 impl<CTX: HashStableContext> HashStable<CTX> for ExpnId {
1516 fn hash_stable(&self, ctx: &mut CTX, hasher: &mut StableHasher) {
1517 assert_default_hashing_controls(ctx, "ExpnId");
1518 let hash = if *self == ExpnId::root() {
1519 // Avoid fetching TLS storage for a trivial often-used value.
1525 hash.hash_stable(ctx, hasher);